JP2005033314A - Apparatus, method, and program for measuring signal delay - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable easily measuring of video/audio signals of TV broadcast etc. without requiring a special signal generator. <P>SOLUTION: A video/audio signal delay measuring apparatus 30 measures the delay time of a second video/audio signal which is branched from a first video/audio signal and converted by a predetermined signal converting means with respect to the first video/audio signal. The apparatus 30 is provided with a video signal delay measuring section 42 and an audio signal delay measuring section 48 which measure the delay time on the basis of a first video/audio sampled signal and a second video/audio sampled signal. The first video/audio signal and the second audio/video signal are sampled by a video signal sampling section 34 and an audio signal sampling section 46, which sample the first video/audio signal and the second video/audio signal at a predetermined time interval from a first video/audio signal and a second video/audio signal. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a signal delay measuring device, a signal delay measuring method, and a signal delay measuring program, and in particular, a signal delay measurement that does not require a special signal generator and can easily measure a delay of a video / audio signal such as a TV broadcast. The present invention relates to a device, a signal delay measurement method, and a signal delay measurement program.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there is known a signal delay measuring device that measures a delay time of a second signal that is branched from a first signal and converted by a predetermined signal converting unit with respect to the first signal. Such a measuring apparatus superimposes the delay measurement signal generated by the signal generator on the first signal and then superimposes the delay measurement signal superimposed on the second signal converted from the first signal by the predetermined signal converting means. The signal was detected and the delay time of the second signal relative to the first signal was measured.
[0003]
Specifically, a video / audio delay measurement signal superimposed on a second video / audio signal that has been subjected to video compression encoding / decoding conversion by the MPEG2 encoder / decoder from the first video / audio signal is detected, and the first video / audio signal is detected. The delay time of the second video / audio signal relative to the first video / audio signal was measured.
[0004]
For example, Non-Patent Document 1 discloses a conventional technique related to a TV test signal generator that generates a TV test signal and superimposes a video / audio delay measurement signal on the TV test signal. A video / audio delay measurement signal superimposed on a second TV test signal which has been subjected to video compression encoding / decoding conversion by the MPEG2 encoder / decoder from the first TV test signal on which the video / audio delay measurement signal is superimposed. It has been a conventional signal delay measurement device to detect and measure the delay time of the second TV test signal with respect to the first TV test signal.
[0005]
[Non-Patent Document 1]
Tektronix website, product information, TV signal generation platform TG700 [searched on June 27, 2003], Internet <http: // www. tektronix. co. jp / Products / Measurement Prod / TV / tg700_main. html>
[0006]
[Problems to be solved by the invention]
However, in the above-described prior art, it is possible to generate a TV test signal, superimpose a video / audio delay measurement signal on the TV test signal, and measure the delay time of the video signal or audio signal of the TV test signal. The delay time of the video signal or audio signal of the TV inside could not be measured.
[0007]
In other words, since the broadcasting station cannot superimpose the video / audio delay measurement signal irrelevant to the TV broadcasting on the video signal or the audio signal during the TV broadcasting, the video / audio signal by the compression coding conversion at the broadcasting station is not possible. In addition to the measurement of the delay time, it was also impossible to measure the delay time of the video / audio signal by the compression / decoding conversion in the receiving apparatus receiving the broadcast.
[0008]
Therefore, the present invention has been made in order to solve the above-described problems caused by the prior art, and does not require a special signal generator and can easily perform delay measurement of video / audio signals such as TV broadcasting. It is an object to provide a delay measuring device, a signal delay measuring method, and a signal delay measuring program.
[0009]
[Means for Solving the Problems]
In order to solve the above-mentioned problems and achieve the object, a signal delay measuring apparatus according to the invention of claim 1 is a signal delay measuring device of the second signal branched from the first signal and converted by a predetermined signal converting means. In the signal delay measuring apparatus for measuring a delay time with respect to the first signal, signal sampling for sampling the first sampling signal and the second sampling signal at a predetermined time interval from the first signal and the second signal. And a signal delay measuring means for measuring the delay time based on the first sampling signal and the second sampling signal sampled by the signal sampling means.
[0010]
According to a second aspect of the present invention, there is provided the signal delay measuring apparatus according to the first aspect of the invention, wherein the predetermined signal converting means is a signal converting means such as analogization, digitization, compression, multiplexing and / or encryption. It is a means.
[0011]
According to a third aspect of the present invention, there is provided the signal delay measuring apparatus according to the first aspect, wherein the signal is a video signal, and the signal sampling means includes the first video signal and the second video signal. The first video sampling signal and the second video sampling signal are sampled at a predetermined time interval, and the signal delay measuring means is configured to sample the first video sampling signal and the second video sampled by the signal sampling means. Video signal measuring means for comparing sampling signals to measure a difference in the number of frames indicating a change in the same video signal, and synchronization for measuring a time difference between the most recent synchronization signal of the first video signal and the second video signal A time difference converted from a difference in the number of frames measured by the video signal measuring means, and the synchronization signal measuring means Therefore and measuring the delay time based on the time difference between the measured sync signal.
[0012]
According to a fourth aspect of the present invention, there is provided the signal delay measuring apparatus according to the third aspect, wherein the first video sampling signal and the second video sampling signal are sampled from a plurality of portions of the same video signal. It is characterized by luminance and / or color information.
[0013]
According to a fifth aspect of the present invention, there is provided the signal delay measuring apparatus according to the third aspect, wherein the first video signal, the second video signal, and the first video sampled by the video signal sampling means are provided. The video signal processing apparatus further includes video synthesizing means for synthesizing the sampling signal, the second video sampling signal, and the delay time measured by the video delay measuring means so that the video can be output.
[0014]
According to a sixth aspect of the present invention, in the signal delay measuring apparatus according to the first aspect of the present invention, the signal is an audio signal, and the signal sampling means includes the first audio signal and the second audio signal. The first audio sampling signal and the second audio sampling signal are sampled at a predetermined time interval from the first and second audio sampling signals, and the signal delay measuring unit is configured to sample the first audio sampling signal and the second audio sampled by the signal sampling unit. The delay time is measured by comparing sampling signals and detecting a change in the same audio signal.
[0015]
According to a seventh aspect of the present invention, there is provided the signal delay measuring apparatus according to the sixth aspect, wherein the first audio signal and the second audio signal are frequency characteristics sampled from the same audio signal and / or It is voice level information.
[0016]
The signal delay measuring apparatus according to an eighth aspect of the present invention further comprises a voice synthesizing unit for synthesizing the first voice signal and the second voice signal so that the first voice signal and the second voice signal can be outputted. It is characterized by that.
[0017]
According to a ninth aspect of the present invention, there is provided the signal delay measuring apparatus according to the sixth aspect of the present invention, wherein the first audio sampling signal and the second audio sampling signal sampled by the signal sampling means, and the signal delay measuring means. The image processing apparatus further includes video synthesizing means for synthesizing the delay time measured by the method so that the video can be output.
[0018]
The signal delay measuring method according to the invention of claim 10 is a signal for measuring a delay time of the second signal branched from the first signal and converted by the predetermined signal converting means with respect to the first signal. In the signal delay measuring method used in the delay measuring device, the signal sampling step of sampling the first sampling signal and the second sampling signal at a predetermined time interval from the first signal and the second signal, And a signal delay measuring step of measuring the delay time based on the first sampling signal and the second sampling signal sampled by the signal sampling step.
[0019]
The signal delay measuring method according to the invention of claim 11 is the signal delay measuring method according to claim 10, wherein the predetermined signal converting means is a signal converter such as analog, digital, compression, multiplexing and / or encryption. It is a means.
[0020]
A signal delay measuring method according to a twelfth aspect of the present invention is the signal delay measuring method according to the tenth aspect of the present invention, wherein the signal is a video signal, and the signal sampling step includes the first video signal and the second video signal. The first video sampling signal and the second video sampling signal are sampled at predetermined time intervals from the first and second video sampling signals, and the signal delay measuring step includes the first video sampling signal and the second video sampled by the signal sampling step. A video signal measuring step for measuring a difference in the number of frames indicating a change in the same video signal by comparing sampling signals, and a synchronization for measuring a time difference between the synchronization signals nearest to the first video signal and the second video signal A time difference converted from a difference in the number of frames measured by the video signal measurement step, and the synchronization signal measurement And measuring the delay time based on the time difference between the synchronous signal measured by degree.
[0021]
The signal delay measuring method according to a thirteenth aspect of the present invention is the signal delay measuring method according to the tenth aspect of the present invention, wherein the signal is an audio signal, and the signal sampling step includes the first audio signal and the second audio signal. The first audio sampling signal and the second audio sampling signal are sampled at predetermined time intervals from the first and second audio sampling signals, and the signal delay measurement step includes the first audio sampling signal and the second audio sampled by the signal sampling step. The delay time is measured by comparing sampling signals and detecting a change in the same audio signal.
[0022]
The signal delay measuring program according to the invention of claim 14 is a signal for measuring a delay time of the second signal, which is branched from the first signal and converted by the predetermined signal converting means, with respect to the first signal. In a signal delay measurement program used for a delay measurement apparatus, a signal sampling procedure for sampling a first sampling signal and a second sampling signal at a predetermined time interval from the first signal and the second signal; The computer is caused to execute a signal delay measurement procedure for measuring the delay time based on the first sampling signal and the second sampling signal sampled by the signal sampling procedure.
[0023]
A signal delay measurement program according to a fifteenth aspect of the present invention is the signal delay measurement program according to the fourteenth aspect, wherein the predetermined signal conversion means performs signal conversion such as analogization, digitization, compression, multiplexing and / or encryption. It is a means.
[0024]
According to a sixteenth aspect of the present invention, there is provided the signal delay measurement program according to the fourteenth aspect, wherein the signal is a video signal, and the signal sampling procedure includes the first video signal and the second video signal. The first video sampling signal and the second video sampling signal are sampled at a predetermined time interval from the first video sampling signal and the second video sampling signal, and the signal delay measurement procedure includes the first video sampling signal and the second video sampled by the signal sampling means. A video signal measurement procedure for measuring a difference in the number of frames indicating a change in the same video signal by comparing sampling signals, and a synchronization for measuring a time difference between the synchronization signals nearest to the first video signal and the second video signal The signal measurement procedure is further executed by a computer and converted from the difference in the number of frames measured by the video signal measurement procedure. The difference, and measuring the delay time based on the time difference between the synchronous signal measured by said synchronizing signal measurement procedures.
[0025]
The signal delay measurement program according to the invention of claim 17 is the signal delay measurement program according to claim 14, wherein the signal is an audio signal, and the signal sampling procedure includes the first audio signal and the second audio signal. The first audio sampling signal and the second audio sampling signal are sampled at a predetermined time interval, and the signal delay measurement procedure includes the first audio sampling signal and the second audio sampled by the signal sampling procedure. The delay time is measured by comparing sampling signals and detecting a change in the same audio signal.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
Exemplary embodiments of a signal delay measuring apparatus, a signal delay measuring method, and a signal delay measuring program according to the present invention will be explained below in detail with reference to the accompanying drawings. In the present embodiment, a case will be described in which the present invention is applied to a video / audio signal delay measurement system and the delay times of video signals and audio signals subjected to predetermined signal conversion are measured.
[0027]
In the present embodiment, a case will be described in which the present invention is applied to a video / audio signal delay measurement system and the delay times of video signals and audio signals subjected to predetermined signal conversion are measured. Here, after describing the configuration of the video / audio signal delay measurement system according to the present embodiment, the video signal delay time measurement procedure and the audio signal delay time measurement procedure of the video / audio signal delay measurement device will be described. To do.
[0028]
[Configuration of video / audio signal delay measurement system]
First, the configuration of the video / audio signal delay measurement system according to the present embodiment will be described. FIG. 1 is a functional block diagram showing the configuration of the video / audio signal delay measurement system according to the present embodiment. As shown in the figure, the video / audio signal delay measurement system includes a video / audio signal distributor 10, a video / audio signal conversion device 20, a video / audio signal delay measurement device 30, and a video / audio display device 60. It consists of.
[0029]
Among these, the video / audio signal distributor 10 is a device that distributes the first video / audio signal 1 into two, and the first video / audio signal 1 is sent to the video / audio signal delay measuring device 30. The other first video / audio signal is distributed to the video / audio signal converter 20.
[0030]
As an example of the first video / audio signal and the second video / audio signal, specifically, the BS analog TV signal and the BS digital TV signal of the same program transmitted from the broadcasting station are respectively received by the analog receiver and the digital receiver. The case where it receives with an apparatus is mentioned. In this case, the difference between the signal conversion of the BS analog TV signal and the signal conversion of the BS digital TV signal is ideally considered to be only the MPEG2 compression encoding / decoding conversion. Therefore, the BS analog TV signal corresponds to the first video / audio signal, and the video / audio conversion device 20 corresponds to the MPEG2 compression encoding / decoding conversion device, which is decoded by the digital receiver of the BS digital TV signal. The signal corresponds to the second video / audio signal converted by the video / audio converter 20.
[0031]
The video / audio signal conversion device 20 is a signal conversion device such as analogization, digitization, compression, multiplexing, and / or encryption. Specifically, the video / audio signal conversion device 20 is distributed by the video / audio signal distributor 10. 1 video / audio signal 1 is converted into a second video / audio signal 2 and then separated into a second video signal and a second audio signal and output to video / audio signal delay measuring device 30. To do. The video / audio display device 60 is a device for displaying the video signal and the audio signal output from the video / audio signal delay measuring device 30, and specifically, a TV receiving device having a display such as a CRT or LCD. It is.
[0032]
The video / audio signal delay measuring device 30 branches from the first video / audio signal 1 and is converted into a first video / audio signal 2 of the second video / audio signal 2 converted by the video / audio signal conversion device 20. 1, a video signal A / D conversion unit 32, a video signal sampling unit 34, a video signal measurement unit 36, a synchronization signal sampling unit 38, and a synchronization signal measurement. Unit 40, video signal delay measurement unit 42, audio signal A / D conversion unit 44, audio signal sampling unit 46, audio signal delay measurement unit 48, video synthesis unit 50, and audio synthesis unit 52. .
[0033]
The video signal A / D converter 32 is a processing unit that converts an analog video signal input from the video / audio signal distributor 10 and the video / audio signal converter 20 into a digital video signal. The video signal sampling unit 34 is a processing unit that samples the first video sampling signal and the second video sampling signal at a predetermined time interval from the video signal input from the video signal A / D conversion unit 32. Specifically, a plurality of sampling signals are sampled from a specific scanning line, pixel or surface. The first video sampling signal and the second video sampling signal are luminance and / or color information sampled from a plurality of portions of the same video signal.
[0034]
The video signal measurement unit 36 compares the first video sampling signal and the second video sampling signal sampled by the video signal sampling unit 34 and measures the difference in the number of frames indicating a change in the same video signal. It is. The synchronization signal sampling unit 38 is a processing unit that measures the time difference between the latest synchronization signals of the first video signal 1 and the second video signal 2. Further, the video signal delay measurement unit 42 calculates the delay time of the video signal based on the time difference converted from the difference in the number of frames measured by the video signal measurement unit 36 and the time difference measured by the synchronization signal measurement unit 40. taking measurement.
[0035]
Here, the relationship between the frame of the video signal for which the video / audio signal delay measuring device 30 shown in FIG. 1 measures the delay time and the synchronization signal will be described. FIG. 2 is a diagram showing the relationship between the frame of the video signal and the synchronization signal for which the video / audio signal delay measuring device 30 shown in FIG. As shown in the figure, the first video signal and the second video signal have a synchronization signal generated immediately before the video signal starts. The interval between the synchronization signals is called a frame, and the time per frame in the case of the NTSC signal is 33.32 msec to 33.33 msec. Therefore, the delay time of the second video signal with respect to the first video signal is (number of frames × time per frame ± time difference of the synchronization signal).
[0036]
As shown in FIG. 6A, the video signal measuring unit 36 measures the difference in the number of frames between the video signal 5 of the first video signal and the video signal 6 of the second video signal, and the synchronization signal measuring unit 40. Measures the time difference between the synchronization signal 3 of the first video signal and the latest synchronization signal 4 of the second video signal. As a result, the video signal delay measurement unit 42 measures the delay time of the second video signal with respect to the first video signal, and finds that (2 × 1 frame time + synchronous signal time difference).
[0037]
Also, as shown in FIG. 6B, the video signal measuring unit 36 measures the difference in the number of frames of the video signal 5 of the first video signal and the video signal 6 of the second video signal, and measures the synchronization signal. The unit 40 measures the time difference between the synchronization signal 3 of the first video signal and the latest synchronization signal 4 of the second video signal. As a result, the video signal delay measurement unit 42 measures the delay time of the second video signal with respect to the first video signal, and finds that (2 × 1 frame-time difference of synchronization signal).
[0038]
Returning to the description of FIG. 1, the audio signal A / D converter 44 converts the analog audio signal input from the video / audio signal distributor 10 and the audio / video signal converter 20 into a digital audio signal. It is. The audio signal sampling unit 46 is a processing unit that samples the first audio sampling signal and the second audio sampling signal at predetermined time intervals from the first audio signal and the second audio signal. The first audio signal and the second audio signal are frequency characteristics and / or audio level information sampled from the same audio signal.
[0039]
The audio signal delay measurement unit 48 compares the first audio sampling signal sampled by the signal sampling unit 46 with the second audio sampling signal and detects a change in the same audio signal to measure the delay time. It is.
[0040]
Specifically, the audio signal delay measurement unit 48 takes the standard deviation of the difference between the first audio sampling signal and the second audio sampling signal, the standard deviation is smaller than a predetermined threshold, and the standard is within the measurement range. Confirm that there is only one minimum point of the minimum deviation and confirm the reliability of the delay time measurement.
[0041]
The video synthesis unit 50 is sampled by the first video signal, the second video signal, the first video sampling signal sampled by the video signal sampling unit 34, the second video sampling signal, and the audio sampling unit 46. The first audio sampling signal, the second audio sampling signal, the delay time of the video signal measured by the video signal delay measurement unit 42, and the delay time of the audio signal measured by the audio signal delay measurement unit 48. This is a processing unit that synthesizes video output.
[0042]
Here, an example of the display of the video displayed on the video / audio display device 60 shown in FIG. 1 will be described. FIG. 3 is an example of the display of the video displayed on the video / audio display device shown in FIG. As shown in the figure, the video synthesizing unit 50 synthesizes the first video signal and the second video signal to be displayed on the upper half of the screen, and the first video sampling signal and the second video signal are displayed on the lower right side of the screen. The two video sampling signals, the first audio sampling signal, and the second audio sampling signal are combined to be displayed. In addition, the video composition unit 50 displays the delay time of the video signal measured by the video signal delay measurement unit 42 and the delay time of the audio signal measured by the audio signal delay measurement unit 48 at the lower left of the screen. Synthesize.
[0043]
Returning to the description of FIG. 1, the speech synthesizer 52 is a processing unit that synthesizes the first audio signal and the second audio signal. Specifically, the first audio signal and the second audio signal Are assigned to the left and right audio channels of the video / audio display device 60.
[0044]
[Video signal delay time measurement procedure]
Next, the procedure for measuring the delay time of the video signal in the video / audio signal delay measuring apparatus shown in FIG. 1 will be described. FIG. 4 is a flowchart showing the procedure for measuring the delay time of the video signal of the video / audio signal delay measuring apparatus shown in FIG. Note that the video signal delay time is measured by using a change in the video screen, that is, an edge. This is because the delay time can be measured with a much smaller amount of computation than when the delay time is measured by comparing all the video signals.
[0045]
First, the video signal sampling unit 34 samples the first video sampling signal and the second video sampling signal at predetermined time intervals from the first video signal and the second video signal (step S401). The first video sampling signal and the second video sampling signal are luminance and / or color information sampled from a plurality of portions of the same video signal.
[0046]
Here, the video signal sampling procedure shown in FIG. 4 will be described in more detail. FIG. 5 is a flowchart showing the video signal sampling procedure shown in FIG. 4 in more detail. As shown in the figure, first, the video signal sampling unit 34 samples a plurality of sampling signals from a specific scanning line, pixel, or surface (step S501). Then, the video signal sampling unit 34 accumulates the video sampling signal for a predetermined time (step S502). The predetermined time is a time per line, and the time per line in the case of the NTSC signal is 63.4 μsec to 63.5 μsec.
[0047]
Further, the video signal sampling unit 34 detects a video signal that varies greatly as an edge, filters the low frequency component of the video sampling signal, leaves the high frequency component, and emphasizes the edge (step S503). The video signal sampling unit 34 adds a plurality of video sampling signals to increase the efficiency of edge detection (step S504).
[0048]
Further, the video signal sampling unit 34 removes noise having a predetermined threshold value 1 or less (step S505). For example, when the video sampling signal is quantized with an 8-bit binary number, the predetermined threshold 1 is set to 64. Then, the video signal sampling unit 34 checks whether or not an edge is detected (step S506). As a result, when an edge is not detected (No at Step S506), the process returns to Step S501 to continue sampling.
[0049]
On the other hand, if an edge is detected (Yes at step S506), it is further checked whether or not sampling of the measurement range time has ended (step S507). As a result, when the sampling of the measurement range time is not completed (No at Step S507), the process returns to Step S501 and the sampling is continued. On the other hand, when the sampling of the measurement range time is completed (Yes at Step S507), the sampling is ended. For example, the measurement range time is set to ± 2 sec with the edge detection time as the center.
[0050]
Returning to the description of FIG. 4, the video signal measuring unit 36 exceeds the predetermined threshold 2 or the edge of the first video sampling signal and the second video sampling signal within the measurement time sampled by the video signal sampling unit 34. Whether there is an edge exceeding the predetermined threshold value 2 before and after this edge is searched (step S402). The predetermined threshold 2 is set to 128, for example.
[0051]
Then, the video signal measuring unit 36 compares the first video sampling signal and the second video sampling signal sampled by the video signal sampling unit 34 (step S403), and the number of frames indicating a change in the same video signal. Is measured (step S404).
[0052]
Further, the video signal measuring unit 36 checks whether or not a plurality of video sampling signals show the same result in order to confirm that the frame difference thus measured is correct (step S405). As a result, when a plurality of video sampling signals do not show the same result (No at step S405), the condition for one edge is searched again. On the other hand, when a plurality of video sampling signals show the same result (Yes at step S405), the difference in the number of frames is determined.
[0053]
On the other hand, the synchronization signal sampling unit 40 samples the synchronization signal within the measurement time from the first video signal and the second video signal (step S406). Then, the synchronization signal measuring unit 40 waits until the first synchronization signal is detected from one of the first video signal and the second video signal (step S407), and starts measuring time (step S408). ) When the next synchronization signal is detected from the other video signal of the first video signal and the second video signal (step S409), the time measurement is stopped and the time difference is measured (step S410). At this time, the synchronization signal measuring unit 40 stores which of the first video signal and the second video signal is detected first.
[0054]
Furthermore, the video delay time measurement unit 42 applies the first video signal based on the time difference converted from the difference in the number of frames measured by the video signal measurement unit 36 and the time difference measured by the synchronization signal measurement unit 40. The delay time of the second video signal is measured (step S411).
[0055]
As described above, according to the present embodiment, the first sampling signal and the second sampling signal are sampled from the first signal and the second signal at a predetermined time interval, and the first sampling signal is obtained. Since the delay time is measured based on the second sampling signal, a special signal generator is not required, and the delay measurement of a video signal such as a TV broadcast can be easily performed.
[0056]
In addition, since the predetermined signal conversion means is a signal conversion means such as analogization, digitization, compression, multiplexing and / or encryption, the video signal converted by a wide range of video signal conversion means Delay time can be measured.
[0057]
The signal is a video signal, and the video signal sampling unit 34 samples the first video sampling signal and the second video sampling signal at predetermined time intervals from the first video signal and the second video signal. The video signal delay measuring unit 42 compares the first video sampling signal and the second video sampling signal to measure the difference in the number of frames indicating the same video signal change, and the first video signal measuring unit 36. And a synchronization signal measuring unit 40 for measuring the time difference between the latest video signal and the second video signal, and is converted from the difference in the number of frames measured by the video signal measuring unit 36. The delay time can be measured based on the measured time difference and the time difference of the synchronization signal measured by the synchronization signal measuring unit 40.
[0058]
[Audio signal delay time measurement procedure]
Next, the audio signal delay time measurement procedure of the video / audio signal delay measuring apparatus shown in FIG. 1 will be described. FIG. 6 is a flowchart showing the procedure for measuring the delay time of the audio signal of the video / audio signal delay measuring apparatus shown in FIG.
[0059]
As shown in the figure, the audio signal sampling unit 46 samples the first audio sampling signal and the second audio sampling signal at a predetermined time interval from the first audio signal and the second audio signal (steps). S601). Here, the sampling procedure of the audio signal shown in FIG. 6 will be described in more detail. FIG. 7 is a flowchart showing the sampling procedure of the audio signal shown in FIG. 6 in more detail.
[0060]
As shown in the figure, the audio signal sampling unit 46 reads an audio signal at a predetermined time interval, for example, 20 μsec (step S701). If the phase of the audio sampling signal is inverted, the absolute value is taken (step S702). The first audio signal and the second audio signal are frequency characteristics and / or audio level information sampled from the same audio signal.
[0061]
Further, the audio signal sampling unit 46 accumulates the audio sampling signal for a predetermined time, for example, 1 msec (step S703). Then, noise equal to or lower than a predetermined threshold 3 is removed so that matching between the first audio sampling signal and the second audio sampling signal is facilitated (step S704). For example, the audio sampling signal is quantized with a 16-bit binary number, and an audio sampling signal of 1/4 or less of the maximum value is removed as noise.
[0062]
Then, the audio signal sampling unit 46 checks whether or not the sampling of the measurement range time has ended (step S705). As a result, when the sampling of the measurement range time has not been completed (No at Step S705), the process returns to Step S701 to continue sampling. On the other hand, when the sampling of the measurement range time is completed (Yes at step S705), the sampling is ended. The measurement range time is set to 4 sec, for example.
[0063]
Returning to the description of FIG. 6, the audio signal delay measurement unit 48 compares the audio sampling signals sampled by the audio signal sampling unit 46 and normalizes them with the maximum signal level value (step S <b> 602). Then, the standard deviation of the difference between the first audio signal and the second audio signal is obtained (step S603).
[0064]
Furthermore, the audio signal delay measuring unit 48 checks whether or not the matching is completed for the measurement range time (step S604). As a result, when the measurement range time has not been matched (No at Step S604), the waveform data of one audio sampling signal is shifted by one step, for example, 1 msec to 5 msec (Step S605). On the other hand, when matching is completed for the measurement range time (Yes at step S604), the number of steps at which the standard deviation is minimized is measured (step S606).
[0065]
Then, the audio signal delay measuring unit 48 checks whether or not the minimum value of the standard deviation is one in order to confirm that the matching result is correct (step S607). As a result, if the minimum value of the standard deviation is not one (No at Step S607), the process returns to Step S601 to sample the audio signal. On the other hand, when the minimum value of the standard deviation is one (Yes at Step S607), the delay time of the second audio signal with respect to the first audio signal is calculated (Step S608).
[0066]
As described above, according to the present embodiment, the first sampling signal and the second sampling signal are sampled from the first signal and the second signal at a predetermined time interval, and the first sampling signal is obtained. Since the delay time is measured based on the second sampling signal, a special signal generator is not required, and the delay measurement of an audio signal such as a TV broadcast can be easily performed.
[0067]
In addition, since the predetermined signal conversion means is a signal conversion means such as analogization, digitization, compression, multiplexing and / or encryption, the audio signal converted by a wide range of audio signal conversion means Delay time can be measured.
[0068]
The signal is an audio signal, and the signal sampling unit 46 samples the first audio sampling signal and the second audio sampling signal at a predetermined time interval from the first audio signal and the second audio signal. The signal delay measuring unit 48 measures the delay time by comparing the first audio sampling signal sampled by the signal sampling unit 46 with the second audio sampling signal and detecting a change in the same audio signal. Therefore, it is possible to easily measure delay of an audio signal such as TV broadcasting without requiring a special signal generator.
[0069]
By the way, in the above embodiment, the present invention is applied to the case where the edge of the video / audio signal is detected or the change of the video / audio signal is detected by matching and the delay time is measured. However, the present invention is not limited to this, and may be applied to other methods for detecting a change in the video / audio signal, for example, when the delay time is measured by cross-correlating two video / audio signals. it can.
[0070]
In the above embodiment, the present invention is applied to the case of measuring the delay time of an NTSC video / audio signal. However, the present invention is not limited to this, and other video / audio signal It can be applied to the measurement of the delay time of a video / audio signal of a standard, for example, a PAL standard.
[0071]
The signal delay measurement method described in the above embodiment can be realized by executing a program prepared in advance on a computer such as a personal computer or a workstation. This program can be distributed via a network such as the Internet. The program is recorded on a computer-readable recording medium such as a hard disk, a floppy (registered trademark) disk, a CD-ROM, an MO, a DVD, or a silicon device, and is executed by being read from the recording medium by the computer. You can also.
[0072]
【The invention's effect】
As described above, according to the first aspect of the present invention, the first sampling signal and the second sampling signal are sampled from the first signal and the second signal at predetermined time intervals, and the first sampling is performed. Since the delay time is measured based on the signal and the second sampling signal, a special signal generator is not required, and the delay measurement of the video / audio signal such as TV broadcasting can be easily performed.
[0073]
According to the second aspect of the present invention, the predetermined signal converting means is a signal converting means such as analogization, digitization, compression, multiplexing, and / or encryption. There is an effect that the delay time of the video signal converted by the conversion means can be measured.
[0074]
According to a third aspect of the invention, the signal is a video signal, and the first video sampling signal and the second video sampling signal are provided at predetermined time intervals from the first video signal and the second video signal. And the first video sampling signal is compared with the second video sampling signal to measure the difference in the number of frames indicating the change of the same video signal, and the first video signal and the second video signal Since the time difference of the synchronization signal is measured, the delay time can be measured based on the time difference converted from the difference in the number of frames and the time difference of the synchronization signal.
[0075]
According to the invention of claim 4, since the first video sampling signal and the second video sampling signal are luminance and / or color information sampled from a plurality of portions of the same video signal, There is an effect that a highly reliable measurement can be performed by a plurality of sampling signals.
[0076]
According to the fifth aspect of the present invention, the first video signal, the second video signal, the first video sampling signal, the second video sampling signal, and the delay time are combined so that the video can be output. As a result, it is possible to reduce the number of video / audio display devices and to achieve an effect that measurement can be performed with a simple measurement system.
[0077]
According to the invention of claim 6, the first audio sampling signal and the second audio sampling signal are sampled from the first audio signal and the second audio signal at a predetermined time interval, and the first audio signal is sampled. Since the delay time is measured by comparing the sampling signal and the second audio sampling signal and detecting a change in the same audio signal, a special signal generator is not required and the delay measurement of the audio signal such as TV broadcasting is performed. There is an effect that can be easily performed.
[0078]
According to the invention of claim 7, the first audio signal and the second audio signal are frequency characteristics and / or audio level signals sampled from the same audio signal. The effect is that the signal can be measured with high reliability.
[0079]
Further, according to the invention of claim 8, since the first audio signal and the second audio signal are synthesized so that they can be output, the video / audio display device can be reduced and measurement can be performed with a simple measurement system. There is an effect that can be done.
[0080]
According to the invention of claim 9, since the first audio sampling signal, the second audio sampling signal, and the delay time are synthesized so as to be output as video, the video / audio display device can be reduced, The effect is that measurement can be performed with a simple measurement system.
[0081]
According to the invention of claim 10, the first sampling signal and the second sampling signal are sampled from the first signal and the second signal at a predetermined time interval, and the first sampling signal and the second sampling signal are sampled. Since the delay time is measured based on the sampling signal, a special signal generator is not required, and the delay measurement of the video / audio signal such as TV broadcasting can be easily performed.
[0082]
According to the invention of claim 11, since the predetermined signal converting means is a signal converting means such as analogization, digitization, compression, multiplexing and / or encryption, a wide range of video signals. There is an effect that the delay time of the video signal converted by the conversion means can be measured.
[0083]
According to a twelfth aspect of the present invention, the signal is a video signal, and the first video sampling signal and the second video sampling signal are provided at predetermined time intervals from the first video signal and the second video signal. And the first video sampling signal is compared with the second video sampling signal to measure the difference in the number of frames indicating the change of the same video signal, and the first video signal and the second video signal Since the time difference of the synchronization signal is measured, there is an effect that the delay time of the video signal such as TV broadcast can be measured based on the time difference converted from the difference in the number of frames and the time difference of the synchronization signal. .
[0084]
According to the invention of claim 13, the signal is an audio signal, and the first audio sampling signal and the second audio sampling signal are provided at predetermined time intervals from the first audio signal and the second audio signal. Since the delay time is measured by comparing the first audio sampling signal and the second audio sampling signal and detecting a change in the same audio signal, a special signal generator is not required. There is an effect that it is possible to easily measure delay of an audio signal such as broadcasting.
[0085]
According to the fourteenth aspect of the present invention, the first sampling signal and the second sampling signal are sampled from the first signal and the second signal at predetermined time intervals, and the first sampling signal and the second sampling signal are sampled. Since the delay time is measured based on the sampling signal, a special signal generator is not required, and the delay measurement of the video / audio signal such as TV broadcasting can be easily performed.
[0086]
According to the fifteenth aspect of the present invention, the predetermined signal conversion means is a signal conversion means such as analogization, digitization, compression, multiplexing, and / or encryption. There is an effect that the delay time of the video signal converted by the conversion means can be measured.
[0087]
According to a sixteenth aspect of the present invention, the signal is a video signal, and the first video sampling signal and the second video sampling signal are provided at predetermined time intervals from the first video signal and the second video signal. And the first video sampling signal is compared with the second video sampling signal to measure the difference in the number of frames indicating the change of the same video signal, and the first video signal and the second video signal Since the time difference of the synchronization signal is measured, there is an effect that the delay time of the video signal such as TV broadcast can be measured based on the time difference converted from the difference in the number of frames and the time difference of the synchronization signal. .
[0088]
According to the seventeenth aspect of the present invention, the signal is an audio signal, and the first audio sampling signal and the second audio sampling signal are separated from the first audio signal and the second audio signal at a predetermined time interval. Since the delay time is measured by comparing the first audio sampling signal and the second audio sampling signal and detecting a change in the same audio signal, a special signal generator is not required. There is an effect that it is possible to easily measure delay of an audio signal such as broadcasting.
[Brief description of the drawings]
FIG. 1 is a functional block diagram showing a configuration of a video / audio signal delay measurement system according to the present embodiment.
2 is a diagram showing a relationship between a frame of a video signal and a synchronization signal for which the video / audio signal delay measuring apparatus shown in FIG. 1 measures delay time. FIG.
FIG. 3 is an example of display of a video displayed on the video / audio display device shown in FIG. 1;
4 is a flowchart showing a procedure for measuring a delay time of a video signal of the video / audio signal delay measuring apparatus shown in FIG. 1;
5 is a flowchart showing the sampling procedure of the video signal shown in FIG. 4 in more detail.
6 is a flowchart showing a procedure for measuring a delay time of an audio signal of the video / audio signal delay measuring apparatus shown in FIG. 1;
7 is a flowchart showing in more detail the sampling procedure of the audio signal shown in FIG. 6;
[Explanation of symbols]
1 First video / audio signal
2 Second video / audio signal
3, 4 Sync signal
5,6 Video signal
10 Video / Audio signal distributor
20 Video / audio signal converter
30 Video / Audio Signal Delay Measurement Device
32 Video signal A / D converter
34 Video signal sampling unit
36 Video signal measurement unit
38 Sync signal sampling unit
40 Sync signal measurement unit
42 Video signal delay measurement unit
44 Audio signal A / D converter
46 Audio signal sampling unit
48 Audio signal delay measurement unit
50 Video composition part
52 Speech synthesis unit
60 Video / audio display device

Claims (17)

In a signal delay measuring apparatus for measuring a delay time of a second signal branched from a first signal and converted by a predetermined signal converting unit with respect to the first signal,
Signal sampling means for sampling the first sampling signal and the second sampling signal at a predetermined time interval from the first signal and the second signal;
A signal delay measuring device comprising signal delay measuring means for measuring the delay time based on the first sampling signal and the second sampling signal sampled by the signal sampling means. 2. The signal delay measuring apparatus according to claim 1, wherein the predetermined signal conversion means is signal conversion means such as analogization, digitization, compression, multiplexing and / or encryption. The signal is a video signal,
The signal sampling means samples the first video sampling signal and the second video sampling signal at a predetermined time interval from the first video signal and the second video signal,
The signal delay measuring means compares the first video sampling signal sampled by the signal sampling means with the second video sampling signal, and measures the difference in the number of frames indicating the change of the same video signal. When,
Synchronization signal measuring means for measuring a time difference between the most recent synchronization signal of the first video signal and the second video signal;
The delay time is measured based on a time difference converted from a difference in the number of frames measured by the video signal measuring means and a time difference of the synchronization signal measured by the synchronization signal measuring means. 2. The signal delay measuring apparatus according to 1. The signal delay measurement according to claim 3, wherein the first video sampling signal and the second video sampling signal are luminance and / or color information sampled from a plurality of portions of the same video signal. apparatus. The first video signal, the second video signal, the first video sampling signal and the second video sampling signal sampled by the signal sampling means, and the delay time measured by the signal delay measuring means; The signal delay measuring apparatus according to claim 3, further comprising video synthesizing means for synthesizing the video so that the video can be output. The signal is an audio signal;
The signal sampling means samples the first audio sampling signal and the second audio sampling signal at a predetermined time interval from the first audio signal and the second audio signal,
The signal delay measuring unit measures the delay time by comparing the first audio sampling signal and the second audio sampling signal sampled by the signal sampling unit and detecting a change in the same audio signal. The signal delay measuring apparatus according to claim 1, wherein the apparatus is a signal delay measuring apparatus. 7. The signal delay measuring apparatus according to claim 6, wherein the first audio signal and the second audio signal are frequency characteristics and / or audio level information sampled from the same audio signal. 7. The signal delay measuring apparatus according to claim 6, further comprising a voice synthesizing unit that synthesizes the first voice signal and the second voice signal so that the first voice signal and the second voice signal can be outputted. Video synthesizing means for synthesizing the first audio sampling signal and the second audio sampling signal sampled by the signal sampling means and the delay time measured by the signal delay measuring means so as to output a video is further provided. The signal delay measuring apparatus according to claim 6. In a signal delay measuring method used in a signal delay measuring apparatus for measuring a delay time of a second signal branched from a first signal and converted by a predetermined signal converting unit with respect to the first signal,
A signal sampling step of sampling the first sampling signal and the second sampling signal at a predetermined time interval from the first signal and the second signal;
A signal delay measurement method, comprising: a signal delay measurement step of measuring the delay time based on the first sampling signal and the second sampling signal sampled by the signal sampling step. 11. The signal delay measuring method according to claim 10, wherein the predetermined signal converting means is signal converting means such as analogization, digitization, compression, multiplexing and / or encryption. The signal is a video signal,
The signal sampling step samples the first video sampling signal and the second video sampling signal at a predetermined time interval from the first video signal and the second video signal,
The signal delay measurement step compares the first video sampling signal sampled by the signal sampling step with the second video sampling signal and measures a difference in the number of frames indicating a change in the same video signal. When,
A synchronization signal measuring step of measuring a time difference between the most recent synchronization signal of the first video signal and the second video signal;
The delay time is measured based on a time difference converted from a difference in the number of frames measured in the video signal measurement step and a time difference of the synchronization signal measured in the synchronization signal measurement step. 10. The signal delay measuring method according to 10. The signal is an audio signal, and the signal sampling step samples the first audio sampling signal and the second audio sampling signal at a predetermined time interval from the first audio signal and the second audio signal. And
The signal delay measuring step measures the delay time by comparing the first audio sampling signal and the second audio sampling signal sampled by the signal sampling step and detecting a change in the same audio signal. The method of measuring a signal delay according to claim 10. In a signal delay measurement program used in a signal delay measurement apparatus that measures a delay time of a second signal branched from a first signal and converted by a predetermined signal conversion unit with respect to the first signal,
A signal sampling procedure for sampling the first sampling signal and the second sampling signal at a predetermined time interval from the first signal and the second signal;
A signal delay measurement program for causing a computer to execute a signal delay measurement procedure for measuring the delay time based on the first sampling signal and the second sampling signal sampled by the signal sampling procedure. 15. The signal delay measurement program according to claim 14, wherein the predetermined signal conversion means is signal conversion means such as analogization, digitization, compression, multiplexing and / or encryption. The signal is a video signal,
The signal sampling procedure samples the first video sampling signal and the second video sampling signal at a predetermined time interval from the first video signal and the second video signal,
The signal delay measurement procedure is a video signal measurement procedure in which the first video sampling signal and the second video sampling signal sampled by the signal sampling procedure are compared to measure a difference in the number of frames indicating a change in the same video signal. When,
Causing the computer to further execute a synchronization signal measurement procedure for measuring a time difference between the most recent synchronization signal of the first video signal and the second video signal;
The delay time is measured based on a time difference converted from a difference in the number of frames measured by the video signal measurement procedure and a time difference of the synchronization signal measured by the synchronization signal measurement procedure. 14. The program for measuring signal delay according to 14. The signal is an audio signal, and the signal sampling procedure samples the first audio sampling signal and the second audio sampling signal at a predetermined time interval from the first audio signal and the second audio signal. And
The signal delay measurement procedure measures the delay time by comparing the first audio sampling signal and the second audio sampling signal sampled by the signal sampling procedure to detect a change in the same audio signal. The signal delay measurement program according to claim 14, wherein the program is a signal delay measurement program.

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